EEC Engineering Electrical & Computer

Courses in EEC:

EEC001—Introduction to Electrical and Computer Engineering(1)Active

Lecture—1 hour(s).Electrical and Computer Engineering as a professional activity. What Electrical and Computer Engineers know and how they use their knowledge. (P/NP grading only.)GE credit: SE.Effective: 2012 Fall Quarter.

EEC007—Introduction to Programming and Microcontrollers(4)Active

Lecture—3 hour(s); Laboratory—2 hour(s).Pass One restricted to Electrical Engineering majors only.Programming computers using C/C++ languages. Software engineering and object-oriented design. Programming for hardware devices.Only two units of credit for students who have previously taken ECS 036A or ECS 032A.(Letter.)Effective: 2019 Winter Quarter.

EEC010—Introduction to Digital and Analog Systems(4)Review all entriesHistorical

Lecture—2 hour(s); Laboratory—3 hour(s); Project (Term Project).Prerequisite(s):ECS 030; (PHY 009C (can be concurrent) or PHY 009HD (can be concurrent)); and Consent of Instructor.Open to Electrical and Computer Engineering sophomores.Interactive and practical introduction to fundamental concepts of electrical and computer engineering by implementing electronic systems, which can be digitally controlled and interrogated, with a programmable microcontroller with the ability to program the electrical connections between analog and digital components.(Letter.)GE credit: SE.Effective: 2017 Winter Quarter.

EEC010—Introduction to Digital and Analog Systems(4)Review all entriesActive

Lecture—2 hour(s); Laboratory—3 hour(s); Project (Term Project).Prerequisite(s):(PHY 009C (can be concurrent) or PHY 009HD (can be concurrent)); (ECS 030 or ECS 036B or EEC 007); ENG 017; Consent of Instructor.Open to Electrical and Computer Engineering sophomores.Interactive and practical introduction to fundamental concepts of electrical and computer engineering by implementing electronic systems, which can be digitally controlled and interrogated, with a programmable microcontroller with the ability to program the electrical connections between analog and digital components.(Letter.)GE credit: SE.Effective: 2019 Winter Quarter.

Workshop—1 hour(s); Laboratory—6 hour(s).Prerequisite(s):ECS 030; EEC 100; EEC 180A; (EEC 110B or EEC 157A (can be concurrent) or EEC 180B).Pass One restricted to major.Optical, electronic and communication-engineering design of an opto-electronic system operating under performance and economic constraints. Measurement techniques will be designed and implemented, and the system will be characterized.(Letter.)GE credit: SE.Effective: 2015 Fall Quarter.

EEC136A—Electronic Design Project(3)Review all entriesActive

Workshop—1 hour(s); Laboratory—6 hour(s).Prerequisite(s):(ECS 036B or ECS 030 or ECS 034 or EEC 007); EEC 100; (EEC 018 or EEC 180A); (EEC 110B or EEC 157A (can be concurrent) or EEC 180 or EEC 180B).Pass One restricted to major.Optical, electronic and communication-engineering design of an opto-electronic system operating under performance and economic constraints. Measurement techniques will be designed and implemented, and the system will be characterized.(Letter.)GE credit: SE.Effective: 2019 Winter Quarter.

EEC136B—Electronic Design Project(3)Active

Workshop—1 hour(s); Laboratory—6 hour(s).Prerequisite(s):EEC 136A.Optical, electronic and communication-engineering design of an opto-electronic system operating under performance and economic constraints. Measurement techniques will be designed and implemented, and the system will be characterized.(Letter.)GE credit: SE.Effective: 2014 Fall Quarter.

Workshop—1 hour(s); Laboratory—6 hour(s).Prerequisite(s):EEC 180B; EEC 170.Digital-system and computer-engineering design course involving architecture, design, implementation and testing of a prototype application-specific processor under given design constraints. This is a team project that includes a final presentation and report.(Letter.)GE credit: SE.Effective: 2018 Winter Quarter.

EEC181A—Digital Systems Design Project(3)Review all entriesActive

Workshop—1 hour(s); Laboratory—6 hour(s).Prerequisite(s):(EEC 180 or EEC 180B); EEC 170.Digital-system and computer-engineering design course involving architecture, design, implementation and testing of a prototype application-specific processor under given design constraints. This is a team project that includes a final presentation and report.(Letter.)GE credit: SE.Effective: 2019 Winter Quarter.

EEC181B—Digital Systems Design Project(3)Active

Workshop—1 hour(s); Laboratory—6 hour(s).Prerequisite(s):EEC 181A.Digital-system and computer-engineering design course involving architecture, design, implementation and testing of a prototype application-specific processor under given design constraints. This is a team project that includes a final presentation and report.(Letter.)GE credit: SE.Effective: 2015 Winter Quarter.

EEC192—Internship in Electrical and Computer Engineering(1-5)Review all entriesHistorical

Internship—3-15 hour(s).Prerequisite(s):Consent of Instructor. Completion of a minimum of 84 units; project approval before period of internship.Supervised work experience in electrical and computer engineering. May be repeated for credit project is different.(P/NP grading only.)GE credit: SE.Effective: 2012 Fall Quarter.

EEC192—Internship in Electrical and Computer Engineering(1-6)Review all entriesActive

Internship—3-18 hour(s).Prerequisite(s):Consent of Instructor. Completion of a minimum of 84 units; project approval before period of internship.Supervised work experience in electrical and computer engineering. May be repeated for credit if project differs.(P/NP grading only.)GE credit: SE.Effective: 2018 Fall Quarter.

Lecture—3 hour(s); Discussion—1 hour(s).Prerequisite(s):EEC 130A.Focuses on the modeling, design, fabrication, and characterization of RF-MEMS while providing a thorough introduction to the technology with an emphasis on how it will benefit the design of adaptive RF/microwave wireless systems. (Letter.)Effective: 2015 Fall Quarter.

Lecture—3 hour(s).Prerequisite(s):EEC 235; EEC 130B; Or the equivalent of EEC 130B.Not open for credit to students who have completed course 226A.Theoretical and practical description of lasers. Theory of population inversion, amplification and oscillation using semiclassical oscillator model and rate equations. Description and design of real laser system (Not open for credit to students who have completed course 226A.)(Letter.)Effective: 1998 Winter Quarter.

Lecture—3 hour(s).Prerequisite(s):Graduate standing in Engineering.Theory and practices of nanofabrication used for producing ICs, electronic devices, optoelectronics, sensors, and microstructures. Major topics include electron-, photon-, and ion-beams and their interactions with solids, chemical vapor depositions, plasma processing and micromachining.(Letter.)Effective: 2014 Winter Quarter.

EEC250—Linear Systems and Signals(4)Active

Lecture—4 hour(s).Prerequisite(s):EEC 150A.Mathematical description of systems. Selected topics in linear algebra. Solution of the state equations and an analysis of stability, controllability, observability, realizations, state feedback and state estimation. Discrete-time signals and systems, and the Z-transform.(Letter.)Effective: 2002 Fall Quarter.

Lecture—3 hour(s).Prerequisite(s):EEC 170; (EEC 018 or EEC 180A).Introduces fault-tolerant digital system theory and practice. Covers recent and classic fault-tolerant techniques based on hardware redundancy, time redundancy, information redundancy, and software redundancy. Examines hardware and software reliability analysis, and example fault-tolerant designs. Not open for credit to students who have completed EEC 276A.(Letter.)Effective: 2019 Winter Quarter.

EEC277—Graphics Architecture(3)Active

Lecture—3 hour(s).Prerequisite(s):(ECS 154B or EEC 170); ECS 175.Design and analysis of the architecture of computer graphics systems. Topics include the graphics pipeline with a concentration on hardware technqiues and algorithms, exploiting parallelism in graphics, and case studies of noteworthy and modern graphics arhitectures. (Letter.)Effective: 2004 Winter Quarter.

EEC286—Introduction to Digital System Testing(3)Review all entriesHistorical

Lecture—3 hour(s).Prerequisite(s):EEC 180A; (STA 120 or STA 131A).A review of several current techniques used to diagnose faults in both combinational and sequential circuits. Topics include path sensitization procedures, Boolean difference, D-algorithm random test generation, TC testing and an analysis of the effects of intermittent faults. Not open for credit to students who have completed EEC 276A.(Letter.)Effective: 1998 Winter Quarter.

EEC286—Introduction to Digital System Testing(3)Review all entriesActive

Lecture—3 hour(s).Prerequisite(s):(STA 120 or STA 131A); (EEC 018 or EEC 180A).Review of several current techniques used to diagnose faults in both combinational and sequential circuits. Topics include path sensitization procedures, Boolean difference, D-algorithm random test generation, TC testing and an analysis of the effects of intermittent faults. Not open for credit to students who have completed EEC 276A.(Letter.)Effective: 2019 Winter Quarter.

EEC289K—Special Topics in Electrical and Computer Engineering; High Frequency Phenomena and Devices(1-5)Active

Lecture/Lab—1-5 hour(s).Prerequisite(s):Consent of Instructor.Special topics in High Frequency Phenomena and Devices.May be repeated for credit when topic differs.(Letter.)Effective: 1997 Winter Quarter.

Seminar—1 hour(s).Discussion and presentation of current research and development in Electrical and Computer Engineering.May be repeated for credit.(S/U grading only.)Effective: 1997 Winter Quarter.

EEC290C—Graduate Research Group Conference in Electrical and Computer Engineering(1)Active

Discussion—1 hour(s).Prerequisite(s):Consent of Instructor.Research problems, progress, and techniques in electrical and computer engineering. May be repeated for credit.May be repeated for credit.(S/U grading only.)Effective: 1997 Winter Quarter.

EEC291—Solid-State Circuit Research Laboratory Seminar(1)Active

Seminar—1 hour(s).Prerequisite(s):Graduate standing.Lectures on solid-state circuit and system design by various visiting experts in the field. May be repeated for credit.May be repeated for credit.(S/U grading only.)Effective: 1997 Winter Quarter.

EEC292—Seminar in Solid-State Technology(1)Active

Seminar—1 hour(s).Prerequisite(s):Graduate standing.Lectures on solid-state technology by various visiting experts in the field.May be repeated for credit.(S/U grading only.)Effective: 1997 Winter Quarter.

EEC293—Computer Engineering Research Seminar(1)Active

Seminar—1 hour(s).Prerequisite(s):Graduate standing or consent of instructor.Lectures, tutorials and seminars on topics in computer engineering.May be repeated up to 4 Time(s).(S/U grading only.)Effective: 2000 Winter Quarter.

Seminar—1 hour(s).Prerequisite(s):Graduate standing.Seminars on current research in systems and control by faculty and visiting experts. Technical presentations and lectures on current topics in robotics research and robotics technology.May be repeated for credit.(S/U grading only.)Effective: 1998 Winter Quarter.

EEC296—Photonics Research Seminar(1)Active

Seminar—1 hour(s).Prerequisite(s):Graduate standing.Lectures on photonics and related areas by faculty and visiting experts. May be repeated for credit.May be repeated for credit.(S/U grading only.)Effective: 1998 Winter Quarter.

Discussion—1 hour(s).Prerequisite(s):Meet qualifications for teaching assistant and/or associate-in in Electrical Engineering.Participation as a teaching assistant or associate-in in a designated engineering course. Methods of leading discussion groups or laboratory
sections, writing and grading quizzes, use of laboratory equipment, and grading laboratory reports. May be repeated for credit.May be repeated for credit.(S/U grading only.)Effective: 1997 Winter Quarter.